Foliar application of chitosan and titanium dioxide enhances silybin content by orchestrating miRNA and gene targets transcription in Milk thistle (Silybum marianum L.)

IF 5.4 Q1 PLANT SCIENCES Current Plant Biology Pub Date : 2023-09-01 DOI:10.1016/j.cpb.2023.100302
Samira Jafari , Sadegh Mousavi-Fard , Abdolhossein Rezaei Nejad , Hasan Mumivand , Karim Sorkheh , Nikolaos Nikoloudakis
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Abstract

Milk thistle (Silybum marianum L. Gaertn.) is an important herbaceous and annual plant that is used as a pharmaceutical for the remedy and prevention of liver diseases. Till now, there have been no reports of miRNAs’ involvement in the production of secondary metabolites in milk thistle. The present study was conducted with the aim of investigating the foliar application of chitosan and titanium dioxide (bulk and nano forms) on seed silybin content and the crosstalk of miRNAs and target genes. The ideal formulation [bulk and nanoparticles (NPs)] and concentration (0–100 mg L−1) of titanium dioxide and chitosan applications for upregulating seed silybin content were investigated across five ecotypes. Additionally, the expression of miRNAs and their target genes involved in silybin biosynthesis were evaluated. Data revealed that foliar application of elicitors increased the content of silybin A, silybin B, and total silybin in all five ecotypes. The cultivar 'Budakalazi' had the best response compared to other ecotypes. The application of chitosan and TiO2 decreased the expression of all five miRNAs in the phenological stage of immature seeds. In contrast, target gene expression was generally upregulated. miRNAs expression was generally linked to the phenological stage of mature seed, as miR156b, miR1438, and miR157a-5p were over-expressed, while miRNAs miR1873 and miR829.1 were down-regulated. In general, foliar application of Nano chitosan, especially at a concentration of 50 mg L−1, increased the amount of silybin content by reducing the expression of most miRNAs, and upregulating the transcription of their target genes involved in silybin biosynthesis.

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壳聚糖和二氧化钛通过调控水飞蓟(Silybum marianum L.) miRNA和基因靶点转录提高水飞蓟素含量。
乳蓟(Silybum marianum L.Gaertn.)是一种重要的草本和一年生植物,被用作治疗和预防肝病的药物。到目前为止,还没有关于miRNA参与乳蓟次级代谢产物产生的报道。本研究旨在研究壳聚糖和二氧化钛(本体和纳米形式)对种子水飞蓟宾含量的叶面应用以及miRNA和靶基因的串扰。研究了五种生态型中用于上调种子水飞蓟宾含量的二氧化钛和壳聚糖的理想配方[体积和纳米颗粒(NP)]和浓度(0-100 mg L−1)。此外,还评估了参与水飞蓟宾生物合成的miRNA及其靶基因的表达。结果表明,诱导子的叶面施用增加了五种生态型中水飞蓟宾A、水飞蓟素B和总水飞蓟bin的含量。与其他生态型相比,品种“布达卡齐”的反应最好。壳聚糖和TiO2的应用降低了未成熟种子酚期所有五种miRNA的表达。相反,靶基因表达普遍上调。miRNAs的表达通常与成熟种子的酚期有关,因为miR156b、miR1438和miR157a-5p过度表达,而miRNAs miR1873和miR829.1下调。一般来说,叶面施用纳米壳聚糖,特别是在50 mg L−1的浓度下,通过减少大多数miRNA的表达,并上调其参与水飞蓟宾生物合成的靶基因的转录,增加了水飞蓟滨的含量。
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来源期刊
Current Plant Biology
Current Plant Biology Agricultural and Biological Sciences-Plant Science
CiteScore
10.90
自引率
1.90%
发文量
32
审稿时长
50 days
期刊介绍: Current Plant Biology aims to acknowledge and encourage interdisciplinary research in fundamental plant sciences with scope to address crop improvement, biodiversity, nutrition and human health. It publishes review articles, original research papers, method papers and short articles in plant research fields, such as systems biology, cell biology, genetics, epigenetics, mathematical modeling, signal transduction, plant-microbe interactions, synthetic biology, developmental biology, biochemistry, molecular biology, physiology, biotechnologies, bioinformatics and plant genomic resources.
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